![]() | 姓 名: | 黄轶禾 |
所在单位: | 中国科学院宁波材料技术与工程研究所 | |
职 称: | 副研究员 | |
邮寄地址: | 浙江省宁波市镇海区中官西路1219号 | |
办公电话: |
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电子邮件: | huangyihe@nimte.ac.cn | |
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教育背景 | ||
2008.09-2012.07 上海理工大学 机械设计及其自动化 本科 2012.09-2013.12 英国利物浦大学 先进制造及系统管理 硕士 2015.09-2019.12 英国曼彻斯特大学 机械工程 博士 | ||
工作履历 | ||
2019.10-2020.07 英国曼彻斯特大学 助理研究员 2020.08-2020.12 英国LIG Nanowise公司 研发工程师 2020.12-2022.04 英国曼彻斯特大学 助理研究员 2022.06-2022.12 英国班戈大学 助理研究员 2022.12-至今 中科院宁波材料所 副研究员 | ||
教 学 | ||
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学术兼职 | ||
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研究领域 | ||
激光诱导新材料合成技术 | ||
研究概况 | ||
从事激光诱导二维材料的合成与处理研究,在石墨烯合成、同步原位元素杂化和纳米颗粒嵌入方向取得了一定的成果,并且在储能、柔性电子电路与水处理方向得到了相应的应用论证。近4年已经在Small, Communications Chemistry, Hazardous Materials等期刊发表SCI学术论文11篇,含第一作者文章7篇(影响因子10.0以上5篇)。 | ||
学术成果 | ||
出版著作: | ||
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发表文章: | ||
[1] Huang Y, Zeng L, Liu C, Zeng D, Liu Z, Liu X, Zhong X, Guo W, Li L. (2018). “Laser Direct Writing of Heteroatom (N and S)-Doped Graphene from a Polybenzimidazole Ink Donor on Polyethylene Terephthalate Polymer and Glass Substrates”. Small. 2018 Nov;14(44):e1803143. [2] Huang, Y., R. Field, Q. Chen, Y. Peng, M.S. Walczak, H. Zhao, G. Zhu, Z. Liu, and L. Li, “Laser induced molybdenum sulphide loading on doped graphene cathode for highly stable lithium sulphur battery”. Communications Chemistry, 2019. 2(1): p. 138. [3] Huang Y., Song Y. Li L. (2019) “Laser direct writing of graphene patterns on ceramic from flour”, Lasers in Engineering, Vol. 46, pp.321-328 [4] Huang, Y., M. Sepioni, D. Whitehead, Z. Liu, W. Guo, X. Zhong, H. Gu, and L. Li, “Rapid growth of large area graphene on glass from olive oil by laser irradiation”. Nanotechnology, 2020. 31(24): p. 245601. [5] Huang, Y., C. Shang, and L. Li, Novel N-doped graphene enhanced ultrafiltration nano-porous polyvinylidene fluoride membrane with high permeability and stability for water treatment. Separation and Purification Technology, 2021. 267: p. 118622. [6] Huang, Y., et al., Characteristics of Nano-plastics in Bottled Drinking Water. Journal of Hazardous Materials, 2021: p. 127404. [7] Wei, C., Z. Sun, Y. Huang, and L. Li, “Embedding anti-counterfeiting features in metallic components via multiple material additive manufacturing”. Additive Manufacturing, 2018. 24: p. 1-12. [8] Wei, C., H. Gu, Z. Sun, D. Cheng, Y.-H. Chueh, X. Zhang, Y. Huang, and L. Li, “Ultrasonic material dispensing-based selective laser melting for 3D printing of metallic components and the effect of powder compression”. Additive Manufacturing, 2019. 29: p. 100818. [9] Wei, C., Y.-H. Chueh, X. Zhang, Y. Huang, Q. Chen, and L. Li, “Easy-To-Remove composite support material and procedure in additive manufacturing of metallic components using multiple material laser-based powder bed fusion”. Transaction of ASME: Journal Manufacturing Science and Engineering, 2019. 141(7). [10] Liu, W., Y. Huang, Y. Peng, M. Walczak, D. Wang, Q. Chen, Z. Liu, and L. Li, “Stable Wearable Strain Sensors on Textiles by Direct Laser Writing of Graphene”. ACS Applied Nano Materials, 2020. 3(1): p. 283-293. | ||
申请专利: | ||
1. 黄轶禾; 商策; 宋文广,一种由亲水石墨烯改性的聚偏氟乙烯超滤膜的制备方法,中国专利申请号:CN201910545700.1,27/9/2019 2.黄轶禾; 李琳, Graphene Production Method,英国专利申请号: 20190010.4,2/12/2021 |
黄轶禾